From this great answer, I am able to determine daylight saving transitions dates: https://stackoverflow.com/a/24378695/1159939
In addition of those dates, I need to know if the clock is going to increase or decrease and by what amount (is it always an hour?).
For example, in time zone US/Pacific, when the local clock reaches 2020-03-08T02:00:00, I need to somehow get value +1h. When the clock reaches 2020-11-01T02:00:00, I need to get value -1h.
In NodaTime, there is a Offset.Savings value that is +0 or +1. Now sure how I can use that.
--Update1: I am building a scheduler. I need to give the user more control over how jobs are executed when a scheduled job is to occur during the 1-hour savings period.
I am thinking for having the following settings the user can select:
[x] Run missed jobs when clocks spring forward.
[x] Re-run jobs when clocks fall back.
For example, let's say a job is scheduled to run at 2020-03-08T02:15:00 US/Pacific. This local time does not exist. If the user ticks off the "Run missed jobs when clocks spring forward" checkbox, the job will be executed at 3:15AM, otherwise, the job will be skipped.
For example, let's say a job is scheduled to run at 2020-11-01T01:45:00 US/Pacific. This local time will occur twice. If the user ticks off the "Re-run jobs when clocks fall back", the job will be executed twice, otherwise, it will be executed once.
In order to make the calculations above, I need to know the day light saving transition dates which I got from the post mentioned previously. I also need to know which direction the clocks will change and by how much (e.g.: 1h).
--Update2:
After giving it more thought, I think I need a list of time zone transitions that contains the following data:
2020-03-08 02:00:00 US/Eastern | 2020-03-08 07:00:00 UAT (01:00:00)
2020-11-01 02:00:00 US/Eastern | 2020-11-01 06:00:00 UAT (-01:00:00)
Below is the code that I am using to generate this data. Not sure if this will work in all cases. In order to calculate time change, I am using the difference between the start of the next zone interval and the end of the current zone interval.
using NodaTime;
using System;
using System.Collections.Generic;
namespace ConsoleApp
{
class Program
{
static void Main(string[] args)
{
string timeZoneId = "US/Eastern";
DateTimeZone? timeZone = DateTimeZoneProviders.Tzdb.GetZoneOrNull(timeZoneId);
if (timeZone is null)
throw new Exception($"Cannot find time zone '{timeZoneId}'.");
int year = 2020;
var daylightSavingTransitions = GetDaylightSavingTransitions(timeZone, year);
foreach (var daylightSavingTransition in daylightSavingTransitions)
{
Console.WriteLine(daylightSavingTransition);
}
/// <summary>
/// Get points in time when a daylight saving time transitions occur.
/// </summary>
/// <param name="timeZone">Time zone of the local clock.</param>
/// <param name="year">The year to find transitions.</param>
/// <returns></returns>
static IEnumerable<DaylightSavingTransition> GetDaylightSavingTransitions(DateTimeZone timeZone, int year)
{
var yearStart = new LocalDateTime(year, 1, 1, 0, 0).InZoneLeniently(timeZone).ToInstant();
var yearEnd = new LocalDateTime(year + 1, 1, 1, 0, 0).InZoneLeniently(timeZone).ToInstant();
LinkedList<NodaTime.TimeZones.ZoneInterval> zoneIntervals = new LinkedList<NodaTime.TimeZones.ZoneInterval>(timeZone.GetZoneIntervals(yearStart, yearEnd));
LinkedListNode<NodaTime.TimeZones.ZoneInterval>? currentNode = zoneIntervals.First;
while (currentNode is { })
{
if (currentNode.Next is null)
break;
//Time change is the difference between the start of the next zone interval and the end of the current zone interval.
Period timeChangePeriod = currentNode.Next.Value.IsoLocalStart - currentNode.Value.IsoLocalEnd;
TimeSpan timeChange = new TimeSpan(Convert.ToInt32(timeChangePeriod.Hours), Convert.ToInt32(timeChangePeriod.Minutes), Convert.ToInt32(timeChangePeriod.Seconds));
DaylightSavingTransition daylightSavingTransition = new DaylightSavingTransition(timeZone.Id, currentNode.Value.IsoLocalEnd.ToDateTimeUnspecified(), currentNode.Value.End.ToDateTimeUtc(), timeChange);
yield return daylightSavingTransition;
currentNode = currentNode.Next;
}
}
}
}
public class DaylightSavingTransition
{
public DaylightSavingTransition(string timeZoneId, DateTime transitionLocalDate, DateTime transitionUtcDate, TimeSpan timeChange)
{
TimeZoneId = timeZoneId;
TransitionLocalDate = DateTime.SpecifyKind(transitionLocalDate, DateTimeKind.Unspecified);
TransitionUtcDate = DateTime.SpecifyKind(transitionUtcDate, DateTimeKind.Utc);
TimeChange = timeChange;
}
public string TimeZoneId { get; }
public DateTime TransitionLocalDate { get; }
public DateTime TransitionUtcDate { get; }
public TimeSpan TimeChange { get; }
/// <summary>
/// For fall back transition, used to determine if date is in the duplicated time period.
/// </summary>
/// <param name="utcDateTime">Point in time to test if it is inside the repeating time period.</param>
public bool IsRepeatingDateTime(DateTime utcDateTime)
{
if (utcDateTime >= TransitionUtcDate && utcDateTime < TransitionUtcDate.Add(TimeChange.Duration()))
{
return true;
}
else
{
return false;
}
}
public override string ToString()
{
return $"{TransitionLocalDate.ToString("yyyy-MM-dd HH:mm:ss")} {TimeZoneId} | {TransitionUtcDate.ToString("yyyy-MM-dd HH:mm:ss")} UAT ({TimeChange})";
}
}
}
ZoneIntervalandZoneLocalMappingtypes, but I can't really give a concrete example in code without knowing what you're expecting.